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Applications of Proteon™ from SCHOTT Primoceler Oy

Active medical implants are becoming smaller and more intelligent. Today’s devices transmit and capture data and can be equipped with a variety of smart components that enhance performance and reduce implant size. The potential for advanced implants to enhance the quality of life for people with chronic and rare diseases is beyond our current imagination.
Illustration of a human brain with highlighted area indicating deep brain stimulation application site, showing a potential therapeutic target

Neurostimulators / deep brain stimulation (DBS)

Neurostimulators, such as those used for deep brain stimulation (DBS), help manage neurological conditions like Parkinson's disease and epilepsy by delivering electrical impulses to specific brain regions. Current advancements aim at making these devices smaller and rechargeable, with more precise targeting and adjustable stimulation parameters.

Digital illustration showing a human brain with a highlighted region to indicate pressure sensing technology application, focusing on monitoring and detecting intracranial pressure

Pressure sensing

Implantable pressure sensors help in the treatment of rare diseases and conditions such as hydrocephalus by monitoring pressure in real time. Current advances focus on wireless data transmission, eliminating the need for external cables and improving mobility. In addition, developments that miniaturize the implant play an enormously important role.

Medical illustration showing the human brain and upper spine with a focus on the highlighted vagus nerve, illustrating its pathway from the brainstem through the neck

Vagus nerve stimulators (VNS)

Vagus nerve stimulation (VNS) manages epilepsy and depression by sending electrical impulses to the vagus nerve. Modern VNS devices offer adjustable settings and wireless connectivity. Future advancements aim to improve battery life, develop adaptive closed-loop systems, and expand treatment to other conditions.

Medical illustration of the human spine highlighting the sacral region, emphasizing the sacral nerve pathway in relation to the lower spinal cord

Sacral nerve stimulation (SNS)

Sacral nerve stimulation treats urinary and bowel dysfunction by sending electrical impulses to the sacral nerves, which control pelvic floor muscles. Current devices offer customizable settings and minimally invasive implantation. Future advancements aim to improve battery life, enhance wireless capabilities, and refine stimulation parameters for more effective and precise control of symptoms.

Medical illustration of a human back showing the spine with a highlighted spinal cord, focusing on the central nervous system pathway within the vertebrae.

Spinal cord stimulators (SCS)

Spinal cord stimulators help manage chronic pain by sending electrical pulses to the spinal cord, masking pain signals before they reach the brain. Modern devices focus on providing customizable and targeted pain relief, incorporating advanced programming and MRI compatibility. Future developments aim at wireless charging, longer battery life, and more durable leads, enhancing ease of use and effectiveness for patients.

A digital illustration showing a side profile of a human head with a cochlear implant, highlighting the ear and brain connection.

Cochlear implants

Cochlear implants provide a sense of sound to individuals with severe hearing loss. They have become more sophisticated, offering better sound quality and wireless connectivity to smartphones and other devices. Development efforts are focused on minimizing invasiveness, improving speech recognition in noisy environments, and extending battery life.

Illustration of a human brain and eye structure with highlighted region indicating the application site for a retinal implant, focusing on visual processing areas.

Retinal implants

Retinal implants, or "bionic eyes," are designed to restore vision for individuals with retinal degeneration. These implants are progressing towards higher resolution and more natural vision restoration. Current development is concentrating on improving image processing, increasing electrode density, and ensuring long-term biocompatibility and stability.

The illustrations used on this website were created with openart.ai.

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Headshot of Antti Peltonen in a blue shirt.
Antti Peltonen

Business Development and Marketing Manager